Class ClassScope
java.lang.Object
org.aspectj.org.eclipse.jdt.internal.compiler.lookup.Scope
org.aspectj.org.eclipse.jdt.internal.compiler.lookup.ClassScope
- Direct Known Subclasses:
InterTypeScope
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Nested Class Summary
Nested classes/interfaces inherited from class org.aspectj.org.eclipse.jdt.internal.compiler.lookup.Scope
Scope.Substitutor
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Field Summary
Modifier and TypeFieldDescriptionFields inherited from class org.aspectj.org.eclipse.jdt.internal.compiler.lookup.Scope
AUTOBOX_COMPATIBLE, BLOCK_SCOPE, CLASS_SCOPE, COMPATIBLE, COMPILATION_UNIT_SCOPE, compilationUnitScope, EQUAL_OR_MORE_SPECIFIC, kind, METHOD_SCOPE, MODULE_SCOPE, MORE_GENERIC, NOT_COMPATIBLE, NOT_REDUNDANT, NOT_RELATED, parent, VARARGS_COMPATIBLE
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Constructor Summary
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Method Summary
Modifier and TypeMethodDescriptionint
addDepth()
void
void
checkRedundantDefaultNullness(int nullBits, int sourceStart)
Check whether the given null default is redundant at the given position inside this scope.boolean
deferCheck(Runnable check)
boolean
detectHierarchyCycle(TypeBinding superType, TypeReference reference)
boolean
hasDefaultNullnessFor(int location, int sourceStart)
Answer a defaultNullness defined for the closest enclosing scope, using bits from Binding.NullnessDefaultMASK.For Java scopes, the invocationType is always the same as the enclosingSourceType This distinction is important for AspectJ's inter-type declarations For inter-type declarations, the invocationType is the lexically enclosing type.toString()
Methods inherited from class org.aspectj.org.eclipse.jdt.internal.compiler.lookup.Scope
boxing, classScope, compareTypes, compilationUnitScope, compilerOptions, computeCompatibleMethod, computeCompatibleMethod, connectTypeVariables, convertEliminatingTypeVariables, createArrayType, createArrayType, createTypeVariables, deferBoundCheck, enclosingClassScope, enclosingLambdaScope, enclosingMethodScope, enclosingReceiverType, enclosingReferenceContext, enclosingSourceType, enclosingTopMostClassScope, environment, findDefaultAbstractMethod, findDirectMemberType, findExactMethod, findField, findField, findMemberType, findMethod, findMethod0, findMethodForArray, findMethodInSuperInterfaces, findPrivilegedHandler, findType, findTypeVariable, findVariable, getBaseType, getBinding, getCommonReferenceBinding, getConstructor, getConstructor0, getCurrentPackage, getDeclarationModifiers, getExactConstructor, getExactMethod, getField, getImplicitMethod, getJavaIoSerializable, getJavaLangAnnotationAnnotation, getJavaLangAssertionError, getJavaLangBoolean, getJavaLangByte, getJavaLangCharacter, getJavaLangClass, getJavaLangClassNotFoundException, getJavaLangCloneable, getJavaLangDouble, getJavaLangEnum, getJavaLangError, getJavaLangFloat, getJavaLangIllegalArgumentException, getJavaLangIncompatibleClassChangeError, getJavaLangInteger, getJavaLangInvokeLambdaMetafactory, getJavaLangInvokeMethodHandlesLookup, getJavaLangInvokeSerializedLambda, getJavaLangIterable, getJavaLangLong, getJavaLangNoClassDefFoundError, getJavaLangNoSuchFieldError, getJavaLangObject, getJavaLangRecord, getJavaLangReflectField, getJavaLangReflectMethod, getJavaLangRuntimeObjectMethods, getJavaLangRuntimeSwitchBootstraps, getJavaLangShort, getJavaLangString, getJavaLangStringBuffer, getJavaLangStringBuilder, getJavaLangThrowable, getJavaLangVoid, getJavaUtilIterator, getMemberType, getMethod, getOnlyPackage, getPackage, getStaticFactory, getType, getType, getType, getTypeOrPackage, greaterLowerBound, greaterLowerBound, hasErasedCandidatesCollisions, innermostSwitchCase, isAcceptableMethod, isBoxingCompatibleWith, isDefinedInField, isDefinedInMethod, isDefinedInSameUnit, isDefinedInType, isInsideCase, isInsideDeprecatedCode, isInterTypeScope, isLambdaScope, isLambdaSubscope, isSubtypeOfRawType, localCheckRedundantDefaultNullness, localNonNullByDefaultValue, lowerUpperBound, methodScope, minimalErasedCandidates, module, mostSpecificClassMethodBinding, mostSpecificInterfaceMethodBinding, mostSpecificMethodBinding, namedMethodScope, originalReferenceContext, outerMostClassScope, outerMostMethodScope, parameterCompatibilityLevel, parameterCompatibilityLevel, parameterCompatibilityLevel, parameterCompatibilityLevel, recordNonNullByDefault, referenceCompilationUnit, referenceContext, setParent, substitute, substitute, substitute, tagAsAccessingEnclosingInstanceStateOf, typeAnnotationsResolutionScope, validateNullAnnotation
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Field Details
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referenceContext
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superTypeReference
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Constructor Details
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ClassScope
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Method Details
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checkParameterizedSuperTypeCollisions
public void checkParameterizedSuperTypeCollisions() -
checkParameterizedTypeBounds
public void checkParameterizedTypeBounds() -
deferCheck
- Overrides:
deferCheck
in classScope
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detectHierarchyCycle
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problemReporter
- Specified by:
problemReporter
in classScope
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referenceType
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hasDefaultNullnessFor
public boolean hasDefaultNullnessFor(int location, int sourceStart)Description copied from class:Scope
Answer a defaultNullness defined for the closest enclosing scope, using bits from Binding.NullnessDefaultMASK.- Overrides:
hasDefaultNullnessFor
in classScope
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checkRedundantDefaultNullness
Description copied from class:Scope
Check whether the given null default is redundant at the given position inside this scope.- Overrides:
checkRedundantDefaultNullness
in classScope
- Parameters:
nullBits
- locally defined nullness default, see Binding.NullnessDefaultMASK- Returns:
- enclosing binding that already has a matching NonNullByDefault annotation,
or the special binding
Scope.NOT_REDUNDANT
, indicating that a different enclosing nullness default was found, or null to indicate that no enclosing nullness default was found.
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toString
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addDepth
public int addDepth() -
invocationType
Description copied from class:Scope
For Java scopes, the invocationType is always the same as the enclosingSourceType This distinction is important for AspectJ's inter-type declarations For inter-type declarations, the invocationType is the lexically enclosing type.- Overrides:
invocationType
in classScope
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